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Marder M.P. — Condensed matter physics

Marder M.P. — Condensed matter physics

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Название: Condensed matter physics

Автор: Marder M.P.

Аннотация:

This new work presents for the first time in decades a sweeping review of the whole field of condensed matter physics. It consolidates new and classic topics from disparate sources, teaching "not only about the effective masses of electrons in semiconductor crystals and band theory, but also about quasicrystals, dynamics of phase separation, why rubber is more floppy than steel, electron interference in nanometer-sized channels, and the quantum Hall effect."
Six major areas are covered-atomic structure, electronic structure, mechanical properties, electron transport, optical properties, and magnetism. But rather than defining the field in terms of particular materials, the author focuses on the way condensed matter physicists approach physical problems, combining phenomenology and microscopic arguments with information from experiments. For graduate students and professionals, researchers and engineers, applied mathematicians and materials scientists, Condensed Matter Physics provides:
* An exciting collection of new topics from the past two decades.
* A thorough treatment of classic topics, including band theory, transport theory, and semiconductor physics.
* Over 300 figures, incorporating many images from experiments.
* Frequent comparison of theory and experiment, both when they agree and when problems are still unsolved. * More than 50 tables of data and a detailed index.
* Ample end-of-chapter problems, including computational exercises.
* Over 1000 references, both recent and historically significant.

Язык:

Рубрика: Физика/

Статус предметного указателя: Готов указатель с номерами страниц

ed2k: ed2k stats

Год издания: 2000

Количество страниц: 928

Добавлена в каталог: 04.12.2013

Операции: Положить на полку | Скопировать ссылку для форума | Скопировать ID

Предметный указатель

Stoner model, Fermi liquid theory      777
Stoner, E.C.      760 782
Stoney, G.J.      517
STONG      see "Slater type orbitals N
Storage modulus      385
Stout, G.H.      68
Strain tensor      37
Straley, J.P.      131 781
Strandburg, K.J.      374
Straub, D.      657 658 665
Strauser, W.A.      68
Streda, P.      729 743
Streetman, B.G.      558
Strength, ideal      366
Strength, practical      344 345
Stress intensity factor      368 370
Stress invariants      386
Stress tensor for ideal fluid      376
Stress tensor for polymeric solution      380—381
Stress tensor for solids      289
Stress tensor for viscous fluids      377
Stress tensor, physical interpretation in fluids      376
Stress tensor, physical interpretation in solids      292
Stress tensor, plastic flow      386
Stroud, D.      303 515
Structure factors for $^{4}He$       403
Structure factors, inelastic      332
Structure factors, liquid and amorphous nickel      102
Structure factors, static      100
Structure factors, weak scattering conductivity      484 486
Stuckes, A.D.      479
Stumpf, R.      xxii 250 253 259 286
Sturge, M.D.      590 607
Su, W.P.      635
Sublattices      690
Substitutional alloy      89
Suematsu, Y.      607
Suhl, H.      781
Sum rules      571—573
Sums, arising in scattering from lattices      843—846
Sums, converting to integrals      140
Sundaram, G.      426 441
Superconductivity      783—833
Superconductivity, Abrikosov lattice      794
Superconductivity, AC Josephson effect      797
Superconductivity, Bardeen — Cooper — Schrieffer model      812—820 834
Superconductivity, Bogoliubov equations      820—826
Superconductivity, Bogoliubov transformation      817
Superconductivity, boundary conditions      785 789
Superconductivity, coherence length      789 791 826 831
Superconductivity, Cooper pair      808 816
Superconductivity, Cooper problem      808—812 835
Superconductivity, critical temperature      828
Superconductivity, d-wave      831—833
Superconductivity, d-wave experiment      833
Superconductivity, DC Josephson effect      797
Superconductivity, diamagnetism      784
Superconductivity, dielectric function      805 806
Superconductivity, effective charge      794—795
Superconductivity, effective electron interaction      806
Superconductivity, electron-ion interaction      803—808
Superconductivity, entropy      788
Superconductivity, excitation energy sketch      819
Superconductivity, Fermi function sketch      819
Superconductivity, flux penetration      792
Superconductivity, flux quantization      794—795
Superconductivity, flux quantization experiment      796
Superconductivity, Fraunhofer diffraction experiment      798 833
Superconductivity, gap equation      816 819
Superconductivity, gap function      815 826
Superconductivity, gauge invariance      785 787 794 797 801 823 831 832 836
Superconductivity, gauge symmetry breaking      801
Superconductivity, high-temperature      828—833
Superconductivity, high-temperature superconductor phase diagram      829—831
Superconductivity, isotope effect      802 803
Superconductivity, Josephson effect      796—802 834
Superconductivity, Josephson junction      797 798 832 833 834
Superconductivity, Josephson junction circuits      798—800
Superconductivity, Lagrangian      801—802
Superconductivity, Landau — Ginzburg equations      788—795
Superconductivity, last word on high $T_{c}$       833
Superconductivity, latent heat      788
Superconductivity, London equation      826
Superconductivity, London gauge      823 836
Superconductivity, macroscopic wave function      788 796
Superconductivity, McMillan theory      828
Superconductivity, mean field theory      817
Superconductivity, Meissner effect      783 785 787 824—826 836
Superconductivity, occupation number sketch      819
Superconductivity, order parameter      831—833
Superconductivity, pairing instability      810
Superconductivity, penetration depth      784 792
Superconductivity, persistent currents      783
Superconductivity, phenomenological free energy      785—787
Superconductivity, resistively shunted junction model      798
Superconductivity, s-wave      831—833
Superconductivity, specific heat experiment      827
Superconductivity, spin relaxation experiment      827
Superconductivity, superconducting quantum interference device      799—800
Superconductivity, surface energy      792—794 834
Superconductivity, table of critical temperatures and fields      790
Superconductivity, table of energy gaps and specific heats      821
Superconductivity, thermodynamics      787—788 817—820
Superconductivity, Type I      792
Superconductivity, Type II      792 831
Superconductivity, vortices      794
Superconductivity, washboard potential      799
Superconductivity, weak link      796
Superexchange      752
Superfluids      389—403 see
Superlattices      90—91
Superlattices, alloy phase transformations      688—691
Superlattices, magnetic      462
Superlattices, surfaces      71 82
Surface energy      72
Surface sound waves      301
Surface states, semiconductors      536—537
Surfaces, Coulomb energy of      270
Surfaces, experimental techniques      73—82
Surfaces, geometrical description      69—73
Surfaces, growth from spiral dislocation      348
Surfaces, reconstruction      69
Sutton, A.P.      275 286 516
Svensson, E.C.      403 410
Swinney, H.L.      410
Symmetry, discrete rotational      169
Symmetry, discrete translational      155
Symmetry, icosahedral      124
Symmetry, impossibility of five-fold      14 36
Symmetry, phonons      307
Symmetry, possibility of fivefold      123
Symmetry, transport equations      449—451
Symmorphic      36
Synchrotron      61 652 658
Szabo, A.      227
Sze, S.M.      441 558 606
T, $T_{c}$ , Curie temperature, phase transition temperature      678
t, $t_{c}$ , reduced temperature      693
T, $\hat{T}_{\vec{R}}$ , translation operator      156
t, hopping term      198
T, T matrix      496
T, temperature      43
T, tetragonal point group      33
t, time      44
T, T[n], kinetic energy functional      215
T-J model      779
Table, alkali halide cohesive energies      273
Table, alkali halide electron affinities and ionization potentials      269
Table, bond dipole moments of selected molecules      211
Table, bond lengths of selected molecules      211

Table, calculated magnetic moments      762
Table, cesium chloride compounds      26
Table, cohesive energy parameterized for selected elements      281
Table, critical exponents      698
Table, critical temperatures and fields of superconducting materials      790
Table, crystal structure of elements      19
Table, Debye temperatures      323
Table, diamagnetic susceptibilities      676
Table, dielectric properties of ionic crystals      619
Table, effective radii of elements      266
Table, elastic constants of cubic crystals      291
Table, elastic moduli for isotropic materials      294
Table, energies of atoms, Hartree — Fock versus local density approximation      220
Table, F center absorption and emission peaks      626
Table, failure under tension      345
Table, Fermi liquid parameters of $^{3}He$       473
Table, ferromagnets and antiferromagnets, magnetic ordering      680
Table, fluorite structures      27
Table, free-electron parameters for selected metals      147
Table, ionization potentials of selected molecules      211
Table, lattice sums for noble gases      268
Table, Lennard — Jones parameters      267
Table, low-temperature specific heats of metals      151
Table, Madelung constant for metals      274
Table, Madelung constants for ionic crystals      272
Table, magnetic susceptibilities of metals      723
Table, mean free paths in liquid metals      485
Table, metallic densities from pseudopotentials      276
Table, noble gas magnetic susceptibilities      717
Table, perovskite structures      29
Table, plastic flow onset under shear      344
Table, rare earth magnetic moments      716
Table, semiconductor impurity binding energies      530
Table, semiconductor properties      527
Table, sodium chloride structures      25
Table, superconducting energy gap and specific heat      821
Table, thermoelectric data      458
Table, transition metal magnetic moments      716
Table, vacancy energies      625
Table, viscosity of selected fluids      378
Table, work functions of selected compounds      653
Table, wurtzite structures      29
Table, zincblende structures      27
Takhtajan, L.A.      780
Tanabe, Y.      668
Tasset, F.      839
Tauer, K.J.      705
Taylor, G.I.      345 374
Taylor, R.E.      341
Teichmann, J.      41
Tesanovic, Z.      839
Tessellation      10
Testardi, L.R.      840
Teukolsky, S.A.      848
thermal conductivity      327 455 475
Thermal conductivity, Drude model      414
Thermal expansion      323—327
Thermal fluctuations      487
Thermal neutrons      61
Thermionic emission      521 535
Thermoelectric figure of merit      457 475
Thermoelectric phenomena      451—462
Thermoelectric phenomena, table      458
Thermopower      456—457 556
Theye, M.L.      649 668
Thole, B.T.      68
Thomas — Fermi theory      216—218 224
Thomas — Fermi — Dirac theory      218
Thomas, G.A.      606
Thomson effect      457 476
Thomson, J.J.      xxii 3 75 135 146 153 413 441 517 561 581
Thomson, R.      364 368 373 374
Thorne, R.E.      279 286
Thornton, S.T.      11 15
Thouless, D.J.      356 373
Three-body potentials      282
Tight-Binding Method      194 438 492—509
Tight-binding method, Fermi surfaces      436
Tight-binding model      197 200 285 382 416 512 724 758
Tightly bound electrons      194—198
Tiling      10
Tilley, D.R.      410
Tilley, J.      410
Tilt boundary      73
Timoshenko, S.      303
Tinkham, M.      170 184 840
Tjeng, H.      667
Tong, B.Y.      227
Tonks, L.      227
Tonomura, A.      724 725 743 794 840
Tortonese, M.      82
Tosi, M.P.      84 86 266 286 782
Touloukian, Y.S.      318 322 326 341
Townes, C.H.      596 607
Toyozawa, Y.      607
Transfer matrix      511 513 726
transistor      545—548
Transition metals, band structure      252
Transition metals, Fermi surfaces      436
Transition metals, ferromagnetism      679 684 759—763
Transition metals, Friedel model for cohesive energy      285
Transition metals, magnetic structure in oxides      681
Transition metals, oxides      659
Transition metals, table of magnetic moments      716
Translation group      11
Translation operators      156
Transverse light waves      566 616 641
Transverse phonon mode      307 485 650
Transverse sound waves      294
Treloar, L.R.G.      300 303
Triangular lattice      see "Lattices"
Trigg, G.      130
Triode      518
Triplet      746
Tsong, T.T.      77 86
Tsui, D.C.      734 743
Tsunetsugu, H.      782
Tungsten anode      55
Twin boundary      73
Twinning      279
Two-body potentials      282
Two-dimensional electron gas      549—555 728 733
Two-fluid hydrodynamics      392—395
Two-fluid model      390
Two-particle correlation function      100
u, $u_{n\vec{k}}$ , periodic Bloch function      157
u, $\vec{u}$ , Bravais lattice vector      52
u, $\vec{u}$ , displacement vector      37 288
u, amplitude in Bogoliubov theory of superconductivity      817
U, fee Brillouin zone symmetry point      170
U, potential energy      78
U, U-process      485
Ueda, K.      752 839
Ueta, M.      594 607
Umklapp      485
Unit cell      see also "Wigner — Seitz cell"
Unit cell, conventional      20
Unit cell, nonprimitive      10
Unit cell, primitive      9
Units, SI versus cgs      672
Universality classes      692 698
UPS      see "Photoemission ultraviolet
Urbach tails      632 634
Urbach, F.      636
V (vanadium), band structure      253
V (vanadium), superconducting specific heat      827
v, $v_{F}$ , Fermi velocity      142
v, $\vec{v}$ , basis vector      8 52
v, $\vec{v}_{n\vec{k}}$ group velocity      160
v, amplitude in Bogoliubov theory of superconductivity      817

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